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Query: UMLS:C0162871 (
abdominal aortic aneurysm
)
8,664
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Archaea have a eukaryotic type of transcriptional machinery containing homologues of the transcription factors TATA-binding protein (TBP) and TFIIB (TFB) and a pol II type of RNA polymerase, whereas transcriptional regulators identified in archaeal genomes have bacterial counterparts. We describe here a novel regulator of heat shock response, Phr, from the hyperthermophilic archaeon Pyrococcus furiosus that is conserved among Euryarchaeota. The protein specifically inhibited cell-free transcription of its own gene and from promoters of a small heat shock protein,
Hsp20
, and of an
AAA
(+) ATPase. Inhibition of transcription was brought about by abrogating RNA polymerase recruitment to the TBP/TFB promoter complex. Phr bound to a 29-bp DNA sequence overlapping the transcription start site. Three sequences conserved in the binding sites of Phr, TTTA at -10, TGGTAA at the transcription start site, and AAAA at position +10, were required for Phr binding and are proposed as consensus regulatory sequences of Pyrococcus heat shock promoters. Shifting the growth temperature from 95 to 103 degrees C caused a dramatic increase of mRNA levels for the
aaa
(+) atpase and phr genes, but expression of the Phr protein was only weakly stimulated. Our findings suggest that heat shock response in Archaea is negatively regulated by a mechanism involving binding of Phr to conserved sequences.
...
PMID:A novel archaeal transcriptional regulator of heat shock response. 1238 24
The hyperthermophilic archaeon Pyrococcus furiosus grows optimally near 100 degrees C and undergoes a heat shock response at 105 degrees C, mediated at least in part by the heat shock regulator Phr. Genes encoding a small heat shock protein (
HSP20
) and a member of the
AAA
(+) ATPase are the only known targets of the regulator, but a genetic mutant of Phr has yet to be characterized. We describe here an alternative approach for the identification of the regulon of Phr based on cell-free transcription of fragmented chromosomal DNA in the presence or absence of the regulator and hybridization of in vitro RNA to P. furiosus whole-genome microarrays. Our results confirmed the phr, the hsp20, and the
aaa
(+) ATPase genes as targets of Phr and also identified six additional open reading frames, PF0624, PF1042, PF1291, PF1292, PF1488, and PF1616, as Phr-responsive genes, which include that encoding di-myo-inositol phosphate synthase. Transcription of the identified novel genes was inhibited by Phr in standard transcription assays, and the novel consensus sequence 5'-TTTAnnnACnnnnnGTnAnnAAAA-3' (uppercase letters denote a high conservation of the bases) was inferred from our data as the Phr recognition motif. Mutational evidence for the significance of this sequence as Phr recognition was provided in DNA-binding experiments.
...
PMID:Genome-wide identification of targets for the archaeal heat shock regulator phr by cell-free transcription of genomic DNA. 2002 14
